Methods and systems for determining the location of an electronic device

1. A method of determining a location of an electronic device, the method comprising: transmitting one or more signals between a first electronic device at an unknown location and three or more electronic devices at three or more corresponding known locations, wherein the one or more signals each includes a plurality of simultaneous tones having different frequencies; determining at least one first phase difference between at least two tones having a first frequency difference in the one or more signals accumulated during transmission between the first electronic device at the unknown location and a first electronic device of said three or more electronic devices; determining at least one second phase difference between at least two tones having a second frequency difference in the one or more signals accumulated during transmission between the first electronic device at the unknown location and a second electronic device of said three or more electronic devices; determining at least one third phase difference between at least two tones having a third frequency difference in the one or more signals accumulated during transmission between the first electronic device at the unknown location and a third electronic device of said three or more electronic devices; and determining the location of said first electronic device at the unknown location using said first, second, and third phase differences and said first, second, and third frequency differences.

2. The method of claim 1 , wherein said three or more devices comprise a fourth device, the method further comprising determining a fourth phase difference between at least two tones having a fourth frequency difference in the one or more signals accumulated during transmission between the first electronic device at the unknown location and the fourth electronic device, wherein said determining the location further comprises using the fourth phase difference and the fourth frequency difference.

3. The method of claim 1 wherein the first, second, and third frequency differences are the same.

4. The method of claim 1 wherein the one or more signals comprise orthogonal frequency division multiplexed signals.

5. The method of claim 1 wherein a first signal of the one or more signals comprises a first wireless standard and a second signal of the one or more signals comprises a second wireless standard.

6. The method of claim 1 wherein a first signal of the one or more signals is transmitted from the first electronic device of said three or more electronic devices and received by the first electronic device at the unknown location, a second signal of the one or more signals is transmitted from the second electronic device of said three or more electronic devices and received by the first electronic device at the unknown location, and a third signal of the one or more signals is transmitted from the third electronic device of said three or more electronic devices and received by the first electronic device at the unknown location.

7. The method of claim 1 wherein a first signal of the one or more signals is transmitted from the first electronic device at the unknown location and received by the first electronic device of said three or more electronic devices, a second signal of the one or more signals is transmitted from the first electronic device at the unknown location and received by the second electronic device of said three or more electronic devices, a third signal of the one or more signals is transmitted from the first electronic device at the unknown location and received by the third electronic device of said three or more electronic devices.

8. The method of claim 1 wherein the one or more signals is one signal transmitted from the first electronic device at the unknown location and received by each of said three or more electronic devices.

9. The method of claim 1 wherein at least one of said electronic devices comprises a plurality of antennas, the method further comprising: determining a first phase difference between at least two tones received by a first antenna of said plurality of antennas; and determining a second phase difference between at least two tones received by a second antenna of said plurality of antennas.

10. The method of claim 1 , wherein the first electronic device at the unknown location includes a gyrator, the method further comprising: determining a first location of said first electronic device at the unknown location; storing said first location; generating a movement vector using the gyrator, the movement vector indicating a movement of the first electronic device at the unknown location relative to the first location; and adding the movement vector to the first location to determine a second location.

11. The method of claim 1 further comprising estimating a distance between the first electronic device at the unknown location and at least one of said three or more electronic devices using a transmitted power and a received power of said one or more signals.

12. The method of claim 11 further comprising encoding the transmitted power in at least one signal.

13. The method of claim 1 wherein determining the location further comprises: selecting a first integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device at the unknown location and said first electronic device of said three or more electronic devices; selecting a second integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device at the unknown location and said second electronic device of said three or more electronic devices; selecting a third integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device at the unknown location and said third electronic device of said three or more electronic devices; determining a first distance between the first electronic device at the unknown location and said first electronic device of said three or more electronic devices, a second distance between the first electronic device at the unknown location and said second electronic device of said three or more electronic devices, a third distance between the first electronic device at the unknown location and said third electronic device of said three or more electronic devices using said first, second, and third integers.

14. The method of claim 13 wherein the first, second, and third distances are final distances indicating the location of the first electronic device at the unknown location relative to three of the three or more electronic devices if the first, second, and third distances intersect at a single point.

15. The method of claim 13 further comprising: estimating the first distance between the first electronic device at the unknown location and said first electronic device of said three or more electronic devices using a transmitted power and a received power of said one or more signals; and determining said first integer based on said estimated distance.

16. The method of claim 1 further comprising: determining a plurality of received amplitudes for the plurality of tones; processing one or more of the received amplitudes to determine estimated distances; weighting the estimated distances based on received amplitude values; and determining the location of said first electronic device at the unknown location using said estimated distances.

17. The method of claim 16 , wherein the processing comprises normalizing a plurality of received amplitudes.

18. The method of claim 16 , wherein the processing comprises averaging a plurality of received amplitudes and normalizing the received amplitudes to an average amplitude value.

19. The method of claim 16 , wherein the processing comprises determining a highest and a lowest amplitude value of said received amplitudes and normalizing the received amplitudes to said highest and lowest amplitude values.

20. A method of determining a location of a first electronic device at an unknown location using signals received from second, third, and fourth electronic devices at known locations, the method comprising: receiving at the first electronic device, first, second, and third signals from the second, third, and fourth electronic devices respectively, each signal comprising a plurality of tones comprising a plurality of frequencies, said tones modulated with a carrier frequency to generate each of said signals; determining phase differences between tones at different frequencies in each signal, each phase difference having a corresponding frequency difference; extracting an amplitude for each of said plurality of tones; estimating first, second, and third distances from the first device to each of the second, third, and fourth devices respectively using each extracted amplitude and a corresponding transmitted power value; selecting a first integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device and the second electronic device, a second integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device and the third electronic device, and a third integer representing a difference in an integer number of wavelengths of two tones transmitted between the first electronic device and the fourth electronic device, wherein the integers are selected based on the estimated first, second, and third distances; calculating the first, second, and third distances based on (1) the phase differences and the corresponding frequency differences of the signal received from each corresponding device and (2) the first, second, and third integers; and determining the location of said first electronic device based on said first, second, and third distances.

21. A method of determining a location of a first electronic device at an unknown location using signals received from second, third, fourth, and fifth electronic devices at known locations, the method comprising: receiving at the first electronic device, first, second, third, and fourth signals from the second, third, fourth, and fifth electronic devices respectively, each signal comprising a plurality of tones comprising a plurality of frequencies, said tones modulated with a carrier frequency to generate each of said signals; determining phase differences between tones at different frequencies in each signal, each phase difference having a corresponding frequency difference; calculating distances from the first device to each of the second, third, fourth, and fifth devices based on the phase differences and the corresponding frequency differences of the signal received from each corresponding device; and determining the location of said first electronic device based on said distances from the first electronic device to each of said second, third, fourth, and fifth electronic devices.

22. The method of claim 20 , wherein the first, second, and third signals comprise orthogonal frequency division multiplexed signals.

23. The method of claim 20 , wherein determining the location is performed at a location server, the method further comprising: prior to determining the location, receiving the phase differences at the location server.

24. The method of claim 23 , wherein one of said second, third, and fourth electronic devices comprises the location server.